residual stability range

简明释义

剩余稳距

英英释义

例句

1.The residual stability range 残余稳定范围 of a building can affect its response to seismic activities.

建筑物的 残余稳定范围 residual stability range 可能会影响其对地震活动的反应。

2.Engineers tested the residual stability range 残余稳定范围 of the new vehicle prototype to determine its performance under stress.

工程师测试了新型车辆原型的 残余稳定范围 residual stability range 以确定其在压力下的性能。

3.The aircraft's design must ensure that the residual stability range 残余稳定范围 is adequate for safe operations during adverse weather conditions.

飞机的设计必须确保 残余稳定范围 residual stability range 在恶劣天气条件下足够安全。

4.A thorough analysis of the residual stability range 残余稳定范围 helps in predicting the behavior of structures over time.

对 残余稳定范围 residual stability range 的全面分析有助于预测结构随时间的行为。

5.Understanding the residual stability range 残余稳定范围 is crucial for improving the safety features of racing cars.

理解 残余稳定范围 residual stability range 对于提高赛车的安全性至关重要。

作文

In the field of engineering, particularly in the design and analysis of various structures, the concept of residual stability range plays a crucial role. Understanding this term is essential for engineers who work with materials and structures that are subjected to various forces and loads. The residual stability range refers to the capacity of a structure or material to maintain its stability after it has experienced some form of deformation or damage. This is particularly important in scenarios where structures are exposed to extreme conditions, such as earthquakes, heavy winds, or impacts. When a structure undergoes stress, it may not return to its original shape or position. The residual stability range indicates the limits within which the structure can still be considered stable despite these changes. For instance, if a building sways during an earthquake, the residual stability range would determine how much movement is acceptable before the building becomes unsafe. Engineers must carefully calculate this range to ensure that structures can withstand unexpected forces without collapsing.Moreover, the residual stability range is not only applicable to large structures like buildings and bridges but also to smaller components and materials. For example, in the automotive industry, the residual stability range of a vehicle's suspension system is vital for ensuring that the car remains controllable and safe after hitting a pothole or experiencing other forms of stress. If the suspension can absorb shocks and still function within its residual stability range, the vehicle will provide a smoother ride and better handling.The evaluation of the residual stability range involves various testing methods and analytical techniques. Engineers often use simulations and modeling to predict how materials will behave under different conditions. By understanding the residual stability range, they can make informed decisions about material selection, design parameters, and safety measures. This is crucial not only for the longevity of the structure but also for the safety of its occupants.In conclusion, the concept of residual stability range is fundamental in engineering and design. It provides a framework for assessing how structures and materials respond to stress and deformation. By understanding the residual stability range, engineers can create safer, more resilient structures that can withstand unforeseen challenges. As our world continues to face increasing environmental stresses, the importance of this concept will only grow, making it imperative for engineers to master it in their work.

在工程领域，特别是在各种结构的设计和分析中，剩余稳定范围这一概念发挥着至关重要的作用。理解这个术语对于那些处理承受各种力量和负荷的材料和结构的工程师来说是必不可少的。剩余稳定范围指的是在经历某种形式的变形或损伤后，结构或材料保持其稳定性的能力。这在结构暴露于极端条件下（如地震、强风或冲击）时尤为重要。当一个结构承受压力时，它可能无法恢复到原来的形状或位置。剩余稳定范围指示了在这些变化下，结构仍然可以被视为稳定的限度。例如，如果一栋建筑在地震期间摇晃，剩余稳定范围将决定在建筑变得不安全之前，允许的运动量。如果建筑能够在其剩余稳定范围内吸收震动，建筑就能保持安全。此外，剩余稳定范围不仅适用于大型结构，如建筑物和桥梁，也适用于较小的组件和材料。例如，在汽车工业中，车辆悬挂系统的剩余稳定范围对于确保汽车在碰到坑洼或经历其他形式的压力后仍能保持可控和安全至关重要。如果悬挂系统能够吸收冲击并在其剩余稳定范围内正常工作，车辆将提供更平稳的驾驶体验和更好的操控性能。对剩余稳定范围的评估涉及各种测试方法和分析技术。工程师们通常使用模拟和建模来预测材料在不同条件下的行为。通过理解剩余稳定范围，他们可以就材料选择、设计参数和安全措施做出明智的决策。这不仅对结构的耐用性至关重要，而且对其居住者的安全也至关重要。总之，剩余稳定范围的概念在工程和设计中是基础性的。它为评估结构和材料如何响应压力和变形提供了框架。通过理解剩余稳定范围，工程师可以创建更安全、更具韧性的结构，以应对不可预见的挑战。随着我们世界面临日益增加的环境压力，这一概念的重要性只会增加，因此工程师必须在工作中掌握这一概念。